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Characterisation of Ovine Lymphatic Vessels in Fresh Specimens

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Characterisation of Ovine Lymphatic Vessels in Fresh Specimens RESEARCH ARTICLE Characterisation of ovine lymphatic vessels in fresh specimens 1,2 1 1 Hung-Hsun YenID *, Christina M. Murray , Elizabeth A. WashingtonID , Wayne G. Kimpton1, Helen M. S. Davies1 1 Melbourne Veterinary School, The University of Melbourne, Parkville, Victoria, Australia, 2 Research Center for Animal Biologics, National Pingtung University of Science and Technology, Neipu, Taiwan * [email protected] Abstract a1111111111 a1111111111 a1111111111 Background and aim a1111111111 The development and use of experimental models using lymphatic cannulation techniques a1111111111 have been hampered by the lack of high-quality colour imaging of lymphatic vessels in situ. Most descriptions of lymphatic anatomy in sheep have historically depended on schematic diagrams due to limitations in the ability to publish colour images of the lymphatic vessels with decent resolution. The aim of this work was to encourage more widespread use of the OPEN ACCESS ovine cannulation model by providing clear photographic images identifying the location and Citation: Yen H-H, Murray CM, Washington EA, anatomical layout of some major lymphatic ducts and their in situ relationship to surrounding Kimpton WG, Davies HMS (2019) Characterisation of ovine lymphatic vessels in fresh specimens. tissues. PLoS ONE 14(1): e0209414. https://doi.org/ 10.1371/journal.pone.0209414 Editor: Arda Yildirim, Tokat Gaziosmanpasa Methods University, TURKEY The cadavers of the sheep were collected after they had been euthanized at the end of ani- Received: June 20, 2018 mal trials not associated with this study. The lymphatics were dissected and exposed to Accepted: December 5, 2018 show their appearance in the surrounding tissues and their relationship to other organs. Pat- Published: January 16, 2019 ent Blue was used to locate lymphatic vessels in exploratory preparations. However, in order to present the natural appearance of the vessels, we used minimal dissection and dye Copyright: © 2019 Yen et al. This is an open access article distributed under the terms of the Creative was not used for the photographed examples. Instead, we have indicated the course of the Commons Attribution License, which permits vessels with lines where their position is less clear. unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Results and conclusion Data Availability Statement: All relevant data are included in the paper and its Supporting In this paper, we have used sheep specimens as examples to show characteristic images of Information files. lymphatic vessels. The images of in situ lymphatics and lymph nodes combined with sche- Funding: The author(s) received no specific matic summaries provide a concise illustration of the lymphatic drainage scheme in sheep. funding for this work. Competing interests: The authors have declared that no competing interests exist. PLOS ONE | https://doi.org/10.1371/journal.pone.0209414 January 16, 2019 1 / 12 Ovine lymphatic vessels in fresh specimens Introduction Lymph carries key physiological and immunological factors, such as cytokines and leukocytes, to and from the local lymph nodes for the induction and propagation of immune responses. In addition, it provides the opportunity to detect the presence in the lymph of antigens that are produced by pathogens or expressed by tumor cells, and allows real-time sampling during the course of an immune response. Consequently, direct access to lymph can generate useful information regarding diseases and immunity at these drainage sites. One successful application of lymphology has been the establishment of lymphatic cannula- tion models to access lymph draining specific target organs in large animal models such as sheep [1]. In this example, knowledge of the morphology of the lymphatic vessel and its drain- age is essential. Sheep have anatomical and physiological structures that are similar to those in humans and thus are ideal models for biomedical studies [2]. Indeed, the lymphatic cannula- tion models in sheep have been broadly applied to many studies, such as in immune cells cir- culation [3], assessing the immune responses following flu vaccine intra-nasal delivery [4] and innate immunity following vaccination with poly(I:C)-containing liposomes [5]. The most practical approach to learning the anatomy of lymphatic vessels, without under- taking dissections with an expert, is through the use of photographic images. However, in most papers describing lymphatic drainage and lymphatic cannulation techniques, only sche- matic images are available due to historical limitations on publishing clear colour photographs with acceptable resolution. An additional complication for human lymphatic anatomy is the difficulty in accessing dissection material. Fresh cadavers of animal species such as sheep, in which surgical procedures for catheterizing the lymphatic vessels have been well investigated and established, present an alternative model [6±9]. Indeed, images showing the cisterna chyli together with the thoracic duct, the point of entry of the thoracic duct into the external jugular vein and the tracheal trunk on the left in pigs have been published [10, 11]. The injection of rubber compounds has been used to show the lymphatics in relief, and while this gives a dra- matic three-dimensional visualization, it does not show the vessels in their natural state [12]. Photographic images of the tracheal trunk [7], the junction of the thoracic duct and an efferent lymphatic vessel of the superficial cervical lymph nodes [8] and the mammary lymphatic ves- sels [9] in sheep are also available. However, photographic images showing other major lym- phatic vessels are either not available, or are black and white images [13, 14] even though the methods for catheterizing these lymphatics have been reported [6, 15, 16]. In this study, we took sheep as an example to produce images of major lymphatic vessels in fresh sheep cadav- ers, including afferent and efferent hepatic ducts, jejunal and ileocolic lymphatics, the major visceral, hepatic and intestinal trunks, the thoracic duct in the caudal thorax, and the right lymphatic duct where lymph rejoins the blood circulation. The locations of these are summa- rized in the schematic diagram of the key lymphatic vessels and the lymph nodes of sheep (Fig 1). Materials and methods The cadavers of the sheep were collected after they had been euthanised at the end of animal trials (AEEC No. 1212422.3, 1312857.2, 0704987, 0706727 and 0911109.4) not associated with this study. Those trials were conducted at the Faculty of Veterinary and Agricultural Sciences (FVAS) animal facility and were carried out with the permission of the Melbourne University Animal Ethics Committee. The lymphatics were dissected and exposed to show their appear- ance and relationship to the surrounding tissues. A number of sheep (4±5 for each image) were initially dissected to establish the best surgical approach to locate and clearly demonstrate the lymphatics. Sheep that are presented in the photographs presented did not have patent PLOS ONE | https://doi.org/10.1371/journal.pone.0209414 January 16, 2019 2 / 12 Ovine lymphatic vessels in fresh specimens PLOS ONE | https://doi.org/10.1371/journal.pone.0209414 January 16, 2019 3 / 12 Ovine lymphatic vessels in fresh specimens Fig 1. Survey diagram of the lymph nodes of sheep. Two schematic images illustrate the principal lymphatic vessels and the lymph nodes of sheep. I. Images showing the tracheal trunks are available in the previous report by Yen at al (Yen et al., 2006) [7]. II. The image showing the junction of the thoracic duct and the efferent lymphatic of the superficial cervical lymph node(s) on the left can be found in the previous report by Yen at al (Yen et al., 2009) [8]. III. A segment of the thoracic duct dorsal to the aorta and the caudal mediastinal lymph node in the caudal thoracic cavity on the right are illustrated in Fig 2. IV. Images showing the efferent lymphatic vessels of the mammary glands are available in the previous reference by Yen et al (Yen et al., 2016) [9]. V. The right lymphatic duct, the tracheal trunk and the efferent lymphatic of the superficial cervical lymph node(s) on the right are depicted in Fig 3. VI. The visceral, hepatic and intestinal trunks are depicted in Fig 4. VII. The afferent and efferent lymphatic vessels of a hepatic lymph node are depicted in Fig 5. VIII. The efferent lymphatic of the ileocolic lymph nodes and the jejunal trunk are shown in Fig 6. 1&1': left and right parotid lymph nodes; 2&2': left and right mandibular lymph nodes; 3&3': left and right medial retropharyngeal lymph nodes; 4&4': left and right lateral retropharyngeal lymph nodes; 5: cranial deep cervical lymph nodes; 6: middle deep cervical lymph nodes; 7: caudal deep cervical lymph nodes; 8&8': left and right accessary superficial cervical lymph nodes; 9&9': left and right superficial cervical lymph nodes; 10: costocervical lymph nodes; 11: cranial mediastinal lymph node(s); 12: middle mediastinal lymph node(s); 13: intercostal lymph nodes; 14: thoracic aortic lymph nodes; 15: caudal mediastinal lymph nodes; 16: tracheobronchial lymph center; 17: pulmonary lymph nodes (left and right); 18: cranial and caudal sternal lymph nodes; 19: costoaxillary lymph nodes; 20&20': left and right axillary lymph nodes; 21&21': left and right accessary axillary lymph nodes (inconstant); 22: lumbar aortic lymph nodes; 23: medial iliac lymph node(s); 24: sacral lymph nodes; 25&25':
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